Proof of Nuprl Lemma : geo-cong-angle-preserves-lt-angle3

Step * 2 1 1 1 of Lemma geo-cong-angle-preserves-lt-angle3

1. g : EuclideanPlane
2. a : Point
3. b : Point
4. c : Point
5. d : Point
6. e : Point
7. f : Point
8. x : Point
9. y : Point
10. z : Point
11. ¬out(y xz)
12. p : Point
13. p' : Point
14. x' : Point
15. z' : Point
16. abc ≅_a xyp
17. y_p'_p
18. out(y xx')
19. out(y zz')
20. ¬x_y_p
21. x'_p'_z'
22. p' ≠ z'
23. def ≅_a xyz
24. a # bc
25. x-y-z
26. x1 : Point
27. b' : Point
28. out(e db')
29. x1 # eb'
30. x1eb' ≅_a abc
31. ¬out(e df)
⊢ abc ≅_a dex1
BY

{ ((InstLemma `out-preserves-angle-cong_1` [⌜g⌝;⌜a⌝;⌜b⌝;⌜c⌝;⌜x1⌝;⌜e⌝;⌜b'⌝;⌜a⌝;⌜c⌝;⌜x1⌝;⌜d⌝]⋅ THEN EAuto 1)

THEN FLemma `geo-cong-angle-symmetry` [-1]
THEN Auto) }

Latex:

Latex:
1. g : EuclideanPlane 2. a : Point 3. b : Point 4. c : Point 5. d : Point 6. e : Point 7. f : Point 8. x : Point 9. y : Point 10. z : Point 11. \mneg{}out(y xz) 12. p : Point 13. p' : Point 14. x' : Point 15. z' : Point 16. abc \mcong{}\msuba{} xyp 17. y\_p'\_p 18. out(y xx') 19. out(y zz') 20. \mneg{}x\_y\_p 21. x'\_p'\_z' 22. p' \mneq{} z' 23. def \mcong{}\msuba{} xyz 24. a \# bc 25. x-y-z 26. x1 : Point 27. b' : Point 28. out(e db') 29. x1 \# eb' 30. x1eb' \mcong{}\msuba{} abc 31. \mneg{}out(e df) \mvdash{} abc \mcong{}\msuba{} dex1 By Latex: ((InstLemma `out-preserves-angle-cong\_1` [\mkleeneopen{}g\mkleeneclose{};\mkleeneopen{}a\mkleeneclose{};\mkleeneopen{}b\mkleeneclose{};\mkleeneopen{}c\mkleeneclose{};\mkleeneopen{}x1\mkleeneclose{};\mkleeneopen{}e\mkleeneclose{};\mkleeneopen{}b'\mkleeneclose{};\mkleeneopen{}a\mkleeneclose{};\mkleeneopen{}c\mkleeneclose{};\mkleeneopen{}x1\mkleeneclose{};\mkleeneopen{}d\mkleeneclose{}]\mcdot{} THEN EAuto 1 ) THEN FLemma `geo-cong-angle-symmetry` [-1] THEN Auto) Home Index